New strategies for Botrytis bunch rot control for a sustainable viticulture

Lagreze Pérez, Jorge Javier

12 June 2024

Vitis vinifera L.(Vv), the European cultivated grapevine is one of the most worldwide important crops but is highly susceptible to the necrotrophic fungus Botrytis cinerea (Bc), the causal agent of bunch rot (BR) disease. In grapevine, as well as in other fruit species, it has been described a primary infection by Bc at full bloom, followed by a quiescence period during the berry development, and the fungal egression after veraison reaching the maximum at harvest. Today, this important disease is mainly controlled by massive use of fungicides, which are applied at different developmental stages that happen to be critical during the grapevine-Bc interaction. During the contact, the fungus must overcome several barriers from the host, which protect it from the pathogen attack and might be also modulated or activated due to the presence of the pathogen itself. The cuticle and the cell wall (CW) represent the first barriers from the plant encountered by the pathogen. To successfully colonize the plant tissue, Bc possesses several virulence factors, and CW modifying enzymes (CWMEs) are part of them. On the other hand, the regulated activity of the CWMEs, expressed both by the host and the pathogen, could alter the plant CW composition and porosity, therefore facilitating, or limiting the penetration of the fungus. Among the CWMEs, Pectin methylesterases (PMEs) regulate the degree of methyl esterification of the pectin homogalacturonan, also modifying the epitopes for the activity of other CWMEs such as polygalacturonases (PGs) and pectate lyases (PLs) by whose action, pectin becomes more susceptible to degradation and the CW more accessible by the pathogen. Previous works both in Arabidopsis thaliana and in crop species identified several PME genes with an altered expression in response to pathogens. A previous report characterizing Atpme17 mutant lines has highlighted a role of AtPME17 in the resistance response to Bc in contrast with the opposite role of AtPME3, suggesting that PME genes could have a completely different action during Bc response depending on the isoform involved. In this context, the main objective of the project was to identify new strategies for Bc BR-control, and specifically i) to identify candidate genes involved in the response to Bc, whose inactivation/overexpression would lead to Bc resistant plants and ii) to set up a molecular method to monitor the Bc load in the field and therefore implement a more sustainable control of the pathogen. To further understand the effects of the Bc primary infection in grapevine flowers at CW level, two contrasting genotypes (Souvignier gris (SG) and Teroldego (TE)) in their resistance to the fungus were considered. An artificial inoculation of different biological replicates, in vase maintained, was performed at full bloom, in controlled conditions, and samples were collected at 24 hours post-inoculation (hpi) with the fungus and post-treatment with the respective control, for the following RNA-seq analysis and biochemical characterization of PME activity and CW composition in the two genotypes before and upon infection. The Bc load was estimated in the flowers using qPCR and as expected, a higher biomass of Bc was found in TE, the susceptible cultivar, than in SG, the resistant one. The analysis of CW composition, PME activity and degree of pectin methyl-esterification, both in treated and control flowers, showed significant differences between the two genotypes, in particular SG showed a significant induction of PME activity with respect to the control, evidence not present in the susceptible genotype. The RNAseq analysis on the same samples showed a total of 4800 genes modulated, out of which 3064 are only modulated in TE, 739 only in SG and a common group of 997 genes. Regardless of the cultivar, upon infection there was a total 2919 genes upregulated vs 1909 genes downregulated. A gene set enrichment analysis (GSEA) indicated several over-represented categories upon infection, including response to pathogens and biosynthesis of secondary metabolites, with a general down-regulation of those genes related to CW organization and pectin modification (CWMEs), mostly in the resistant genotype. Within the down-regulated CWMEs, Pectin methylesterase (PME) genes were found highly represented. Unlike, a larger gene set, in many cases with a higher fold-change of induction, was identified in TE respect to SG. This is the case of genes involved in the defense response and its regulation, and in the modification/reinforcement of the cell wall, therefore attesting for an initial tentative by the susceptible genotype to counteract the pathogen, although at the end without success. This was also the case of the seven VviPME genes previously highlighted by the in-silico co-expression analysis and therefore of VviPME10, the gene with the highest homology to AtPME17. Among the regulators, one WRKY factor (VviWRKY3), known to be related to defense response in grapevine mediated by stilbene synthesis, was also further characterized as putative regulator of VviPME10, whose promoter hosts more than one several predicted binding sites for VviWRKY3. Indeed, luciferase assay results indicate a significant activation of VviPME10 promoter by VviWRKY3 factor. Parallelly, the genome-wide analysis of the last structural annotation of the grapevine genome assembly allowed us to identify 62 VviPME gene members, 15 more than a previous report, and manually curate the gene structure for 39 of them. Then, to corroborate the idea of the role of the CW, and in particular of PME activity, in the grapevine response to the fungus, an in silico co-expression analysis of the 62 VviPME members, considering the publicly available RNA-seq experiments related to grapevine-Bc interactions and the RNAseq experiment conducted in this project, was performed. The analysis highlighted a group of seven genes (VviPME1, VvPME9, VviPME10, VviPME11, VviPME12, VviPME13 and VviPME54) with significant induction upon Bc infection, five of them (VviPME8, VviPME9, VviPME10, VviPME11, and VviPME54) located in the same chromosome (chr06). VviPME10 showed the highest homology and was found to be phylogenetically close to the Arabidopsis thaliana PME17 gene, suggesting being considered as its putative orthologue. Afterward, Therefore, considering the increased VviPME10 expression upon infection, and the reported effect of AtPME17 in A. thaliana, VviPME10 was selected as a potential candidate to study its role in grapevine. In this regard, two strategies were adopted, i. VviPME10 knock-out (KO) with CRISPR/Cas9 and ii. VviPME10 overexpression (OE, under CaMV35S promoter) through embryogenic callus transformation of the grapevine cultivar ‘Sugraone’ mediated by Agrobacterium tumefaciens. More than 100 embryos developed, and around 20 plantlets per transformation were analyzed to check the presence of the transgenic construct. Then, the mutation profile, in the case of KO lines, and the expression analysis of the transgene, in the case of OE lines, were carried out to select the appropriate lines to acclimatize. OE lines were also tested for VviPME10 activity. A total protein extract was obtained from the leaves of the lines, showing a higher protein activity compared to the control, and indicating the functionality of the enzyme. Unfortunately, grapevine OE lines couldn’t be analyzed for their response to Bc, while KO lines showed a significantly larger lesion area when compared to the control at 5 days post fungal inoculation (dpi). However, the effect of VviPME10 overexpression upon Bc infection was evaluated also in Nicotiana benthamiana VviPME10-OE lines, generated in parallel. At 3 dpi a significant reduction was observed in the lesion area compared to the control. These results suggest that pectin modification, mediated by VviPME10, plays an important role in the grapevine response to Bc, in particular it seems to behave more like a resistance gene than a susceptibility one. For this reason, it could be considered as a valuable target to improve resistance to Bc in susceptible grapevine varieties. Finally, a molecular method for Bc detection, based on quantitative RT-PCR assays, was set up and applied to estimate the Bc load in field conditions. Although the method allowed the successful detection of the presence of the fungus in samples at different developmental stages, from two V. vinifera cultivars, in different vineyards, the lack of environmental conditions for the development of the disease might have impaired the correlation between detection and the development of the disease. Nonetheless, the method represents a good alternative for monitoring the Bc load in the field at the early season, to predict the BcBR severity at harvest and eventually apply the disease management protocols based on the real need.

Settore AGR/12 - Patologia Vegetale

Identification and characterisation of grapevine leafroll-associated virus 3 genomic and subgenomic RNAs

Maree, Hans Jacob

12 1900

Thesis (PhD (Genetics))--University of Stellenbosch, 2010. / Includes bibliography. / Title page: Dept. of Genetics, Faculty of Science / ENGLISH ABSTRACT: Grapevine leafroll-associated virus 3 (GLRaV-3) is the type strain for the genus Ampelovirus, family Closteroviridae. There has been only one report that claimed the complete nucleotide sequence of GLRaV-3 (isolate NY-1, AF037268). Here we report the complete sequence of the South African GLRaV-3, isolate GP18 (EU259806) and show a significantly extended 5’ end. We used RLM-RACE to determine the 5’ end of GP18 and found the 5’ UTR to be 737 nt compared to 158 nt in the NY-1 sequence. This extended UTR was found in all other South African isolates of GLRaV-3 that were tested. In two collaborative studies the existence of the extended 5’ UTR was confirmed and further investigated. In the first study (Coetzee et al., 2010), metagenomic data generated by next generation sequencing (Illumina Genome Analyzer II) was analysed for GLRaV-3 specific sequences. Sequences similar to the GP18 isolate confirmed the sequence of the extended 5’ UTR. In the second study (Jooste et al., 2010), three genetic variants were identified and their respective 5’ UTRs studied. Great diversity was observed between the 5’ UTRs of the different genetic variants, however within a variant the 5’ UTR was found to be highly conserved. Grapevine leafroll-associated virus 3 is a positive sense, single stranded RNA virus that has been shown, like other closteroviruses, to produce subgenomic (sg) RNAs during replication. These sgRNAs are deployed for the expression of the ORFs on the 3’ half of the genome. In this study a dsRNA blot confirmed the presence of three, 3’ coterminal sgRNAs species [sgRNA(ORF3/4), sgRNA(ORF5) and sgRNA(ORF6)] in GLRaV-3-infected plant material when using a probe directed at the coat protein gene. The specific 5’ terminal nucleotides for these sgRNAs as well as four additional sgRNAs [sgRNA(ORF7), sgRNA(ORF8), sgRNA(ORF9) and sgRNA(ORF10-12)] were determined by RLM-RACE for GLRaV-3 isolate GP18. The construction of a GLRaV-3 mini-replicon, analogous to RNA1 of Lettuce infectious yellows virus, for the evaluation of putative sg-promoters is also described. / AFRIKAANSE OPSOMMING: Grapevine leafroll-associated virus 3 (GLRaV-3) is ‘n lid van die Closteroviridae familie en die hooflid vir die genus Ampelovirus. Tot dusver was daar net een studie wat die volledige nukleïensuurvolgorde van GLRaV-3 gerapporteer het (isolaat NY-1, AF037268). In hierdie studie rapporteer ons die volledige volgorde van ‘n Suid-Afrikaanse GLRaV-3, isolaat nl. GP18 (EU259806) wat noemenswaardig langer is aan die 5’ kant. RLM-RACE is gebruik om die 5’ eindpunt van GP18 te bepaal en daar is gevind dat die 5’ ongetransleerde streek (UTR) 737 nt lank is in vergelyking met die 158 nt van die NY-1 volgorde. Die verlengde 5’ UTR is gevind in alle Suid-Afrikaanse monsters wat getoets is. Die verlengde 5’ UTR is bevestig en verder bestudeer tydens twee samewerkingsprojekte. In die eerste studie (Coetzee et al., 2010), is metagenomiese data gegenereer deur volgende-generasie volgordebepaling (Illumina Genome Analyzer II) en geanaliseer vir GLRaV-3 spesifieke volgordes. Volgordes soortgelyk aan die GP18 isolaat het die verlengde 5’ UTR volgorde bevestig. In die tweede studie (Jooste et al., 2010), is drie genetiese variante van GLRaV-3 geidentifiseer en hulle onderskeie 5’ UTR volgordes bepaal en bestudeer. Daar is groot diversiteit tussen die 5’ UTRs van die verskillende genetiese variante gevind, maar tussen isolate van dieselfde variant is die volgordes gekonserveerd. Grapevine leafroll-associated virus 3 is ‘n positiewe-sin, enkelstring RNA virus wat al voorheen bewys is om, soos ander closterovirusse, subgenomiese (sg) RNAs te produseer tydens replisering. Hierdie sgRNAs word ingespan vir die uitdrukking van die ORFs op die 3’ helfte van die virusgenoom. In hierdie studie is ‘n dsRNA klad gebruik om die voorkoms van 3’ ko-terminale sgRNAs [sgRNA(ORF3/4), sgRNA(ORF5) and sgRNA(ORF6)] te bevestig in GLRaV-3 geinfekteerde plantmateriaal deur gebruik te maak van ‘n peiler teen die kapsiedproteïengeen. Die spesifieke 5’ terminale nukleotiedes vir hierdie sgRNAs sowel as vier additionele sgRNAs [sgRNA(ORF7), sgRNA(ORF8), sgRNA(ORF9) and sgRNA(ORF10-12)] is bepaal deur gebruik te maak van RLM-RACE op die GLRaV-3 isolaat GP18. Die konstruksie van ‘n GLRaV-3 mini-repliserings konstruk, analoog aan die RNA1 van Lettuce infectious yellows virus, vir die evaluasie van moontlike sg-promotors word ook beskryf.

Grapevine leafroll-associated virus 3

Subgenomic ribose nucleic acid

Ampelovirus

Dissertations -- Genetics

Theses -- Genetics

Grapes -- Diseases and pests

Grapevine leafroll virus

Virus diseases of plants

Diversité génétique du nématode vecteur Xiphinema index sur vigne et application pour optimiser la stratégie de résistance / Genetic diversity of the grapevine vector nematode Xiphinema index and application to optimize the resistance strategy

Nguyen, Van Chung

23 October 2018

Le retrait des nématicides rend urgent la mise au point de méthodes alternatives de lutte contre les nématodes parasites des cultures et la création de variétés résistantes est une voie prometteuse. En vignoble, le nématode Xiphinema index a un impact économique élevé en transmettant le Grapevine fanleaf virus (GFLV), principal virus du court-noué de la vigne et première virose de la vigne à l’échelle mondiale. Des porte-greffe résistants vis-à-vis du vecteur X. index basés sur la source de résistance muscadine (Muscadinia rotundifolia) sont en cours de sélection chez la vigne afin de stopper ou retarder l’infection. Sur cette culture, une étude antérieure avait montré que ce nématode parthénogénétique méiotique est aussi capable de se reproduire (rarement) de façon sexuée. Un travail préliminaire de phylogéographie avait permis de révéler les groupes prédominants de diversité et de sélectionner des populations représentatives pour la création de lignées monofemelles. La durabilité de la résistance doit prendre en compte la diversité du nématode. Dans ce contexte, la thèse a d’abord complété et approfondi l’approche phylogéographique en utilisant une très large gamme d’échantillons originaires de l’aire mondiale de répartition de la vigne. Nos résultats permettent de proposer des hypothèses fortes afin de localiser l’aire native du nématode X. index au Moyen-Orient et de retracer ses itinéraires de dissémination à partir de l’Antiquité. IIs illustrent également le lien étroit depuis cette époque entre la dissémination du nématode et celle de la vigne domestiquée par l’homme. La deuxième partie de la thèse a évalué la durabilité de la résistance de matériel porte-greffe issu de la muscadine en serre (nématodes non virulifères sur plants entre 3 et 6 ans) et en vignoble (nématodes virulifères sur plants âgés de 16 ans). En serre, des accessions résistantes F1 ou BC1, préalablement obtenues à partir d’in vitro ou de boutures ligneuses, ont été inoculées avec un mélange de 4 lignées représentatives, chaque lignée étant traçable avec des marqueurs microsatellites. Nous avons montré que les nématodes issus de plants obtenus par multiplication in vitro surmontent progressivement la résistance tandis que le matériel issu de boutures exprime une résistance durable. La multiplication progressive des nématodes sur le matériel résistant uniquement dans le cas où il est issu d’in vitro écarte a priori l’hypothèse d’une adaptation génétique du nématode. Elle apparaît liée à une architecture différente du système racinaire chez les plants issus de ce type de multiplication, multiplication qui pourrait induire des changements physiologiques discrets mais durables dans les tissus racinaires apicaux à partir desquels les nématodes se nourrissent. Le génotypage des nématodes par microsatellites a permis de détecter un taux bas mais croissant d’individus hybrides entre lignées sur les plants âgés de 4 à 6 ans, ce qui confirme l’aptitude de multiplication sexuée précédemment observée en vignoble. Du fait que l’observation d’individus hybrides apparaît indépendante du type de propagation et du statut de résistance de la plante, nos résultats écartent l’hybridation comme mode d’adaptation du nématode qui serait à même d’expliquer le contournement de la résistance chez les plants issus d’in vitro. En vignoble, après 16 années, les nématodes ont été quasi-impossibles à détecter sur l’accession résistante BC1 qui est également peu affectée par les attaques virales, tandis que des effectifs de nématodes plus élevés ont été retrouvés sur une accession témoin sensible dont les plants sont par contre très majoritairement morts ou en dépérissement. Considérés globalement, nos résultats montrent que la stratégie de résistance basée sur la muscadine apparaît durable. Cette stratégie ciblée sur le nématode vecteur contribuera à réduire significativement l’impact du GFLV transmis par X. index. / The ban of most nematicides renders urgent control alternatives against plant-parasitic nematodes and breeding for resistant plant varieties is promising. In vineyards, the nematode Xiphinema index has a high economical impact by transmitting Grapevine fanleaf virus (GFLV), the main virus of ‘Court-noué’ disease and the first grapevine viral disease worldwide. Resistant rootstocks are being selected in grapevine, using Muscadinia rotundifolia (muscadine) as a resistance source to the vector, in order to arrest or delay GFLV transmission. In this crop, a previous study had shown that this meiotic parthenogenetic nematode is able to reproduce sexually (rarely) in the field. A preliminary phylogenetic work had allowed to reveal the predominant diversity groups and to select representative populations for the creation of single-female lines. Resistance durability is a real challenge that must consider the key information of the nematode diversity. In this context, the PhD project first completed and deepened our phylogeographical approach using an extended geographic coverage of the worldwide nematode distribution. Our results allow proposing strong hypotheses to locate the native area of X. index in the Middle-East and trace its dissemination routes from the Antiquity. They also highlight the close link since this epoch between dissemination of the nematode and domesticated grapevine by man. The second part of the PhD project has then evaluated the durability of muscadine-derived rootstock material in greenhouse (non viruliferous nematodes on plants aged 3 to 6 years) and field (viruliferous nematodes on plants aged 16 years) conditions. In the greenhouse, F1 and BC1 resistant accessions, previously obtained from both in vitro and hardwood-cutting propagation, were inoculated with 4 mixed representative X. index lines, traceable each with microsatellite markers. We showed that nematodes from plants obtained from in vitro progressively overcame the resistance while the material obtained from cuttings displayed a durable resistance. Nematode progressive multiplication in resistant accessions obtained only from in vitro removes a priori the hypothesis of a nematode genetic adaptation and appears linked to a different architecture of the root system in this propagation type. This type may have induced discrete but durable physiological changes in apical root tissues from where nematodes feed. Nematode microsatellite genotyping allowed detecting a low but increasing rate of hybrid individuals from 4 to 6 years, which confirms data from the vineyard. As the hybrid occurrence appears independent from the propagation type and the resistance status of the plant, our data discard hybridization as the mode of adaptation of the nematode underlying resistance breakdown from in vitro plants. In field conditions, after 16 years, nematodes were almost undetectable on the resistant BC1 accession, also almost unaffected by the viral attacks, while higher numbers were detected on a susceptible control accession, whose plants were by contrast in high majority dead or poorly vigorous. Taken all together, our results show that the muscadine-derived resistance strategy appears durable. This strategy focused on vector control will significantly contribute to reduce the impact of GFLV transmitted by X. index.

Diversité

Vigne domestiquée

Durabilité

Vigne

Microsatellite

Gène mitochondrial

Muscadinia

Résistance des plantes

Propagation des plantes

Phylogéographie

Xiphinema, X. index

Nématode vecteur

Diversity

Domesticated grapevine

Durability

Grapevine

Microsatellite

Mitochondrial gene

Muscadinia

Plant resistance

Plant propagation

Phylogeography

Xiphinema, X. index

Vector nematode

Biological control of the grapevine trunk disease pathogens : pruning wound protection

Kotze, Charl

12 1900

Thesis (MScAgric (Plant Pathology))--Stellenbosch University, 2008. / In recent years, several studies have conclusively shown that numerous pathogens, including several species in the Botryosphaeriaceae, Phomopsis, Phaeoacremonium, as well as Phaeomoniella chlamydospora and Eutypa lata, contribute to premature decline and dieback of grapevines. These pathogens have the ability to infect grapevines through pruning wounds, which leads to a wide range of symptoms developing that includes stunted growth, cankers and several types of wood necrosis. Pruning wounds stay susceptible for 2 to 16 weeks after pruning and sustained levels of pruning wound protection is therefore required. The aims of this study were to (i) evaluate the ability of several biological agents to protect pruning wounds, (ii) characterise unknown Trichoderma strains and identify their modes of action and (iii) determine the optimal time of season for biological agent application. Several biological agents were initially evaluated in a laboratory for their antagonism against trunk disease pathogens. The best performing control agents were tested in a field trial conducted on Merlot and Chenin blanc vines in the Stellenbosch region. Spurs were pruned to three buds and the fresh pruning wounds were treated with benomyl as a control treatment, Trichoderma-based commercial products, Vinevax® and Eco77®, Bacillus subtilis, and Trichoderma isolates, USPP-T1 and -T2. Seven days after treatment the pruning wounds were spray inoculated with spore suspensions of four Botryosphaeriaceae spp. (Neofusicoccum australe, N. parvum, Diplodia seriata and Lasiodiplodia theobromae), Eutypa lata, Phaeomoniella chlamydospora and Phomopsis viticola. After a period of 8 months the treatments were evaluated by isolations onto potato dextrose agar. Trichodermabased products and isolates in most cases showed equal or better efficacy than benomyl, especially USPP-T1 and -T2. Moreover, these isolates demonstrated a very good ability to colonise the wound tissue. The two uncharacterised Trichoderma isolates (USPP-T1 and USPP-T2), which were shown to be highly antagonistic toward the grapevine trunk disease pathogens, were identified by means of DNA comparison, and their ability to inhibit the mycelium growth of the trunk disease pathogens by means of volatile and non-volatile metabolite production studied. The two gene areas that were used include the internal transcribed spacers (ITS 1 and 2) and the 5.8S ribosomal RNA gene and the translation elongation factor 1 (EF). The ITS and EF sequences were aligned to published Trichoderma sequences and the percentage similarity determined and the two Trichoderma isolates were identified as Trichoderma atroviride. The volatile production of T. atroviride isolates was determined by placing an inverted Petri dish with Trichoderma on top of a dish with a pathogen isolate and then sealed with parafilm. Trichoderma isolates were grown for 2 days on PDA where after they were inverted over PDA plates containing mycelial plugs. The inhibition ranged from 23.6% for L. theobromae to 72.4% for P. viticola. Inhibition by non-volatile products was less than for the volatile inhibition. Inhibition ranged from 7.5% for N. parvum to 20.6% for L. theobromae. In the non-volatile inhibition USPP-T1 caused significantly more mycelial inhibition than USPP-T2. The timing of pruning wound treatment and subsequent penetration and colonisation of the wound site was also determined. One-year-old canes of the Shiraz and Chenin blanc cultivars were grown in a hydroponic system, pruned and spray treated with a spore suspension of Trichoderma atroviride (USPP-T1) as well as a fluorescent pigment. On intervals 1, 3, 5 and 7 days after treatment, the distal nodes were removed and dissected longitudinally. From the one half, isolations were made at various distances from the pruning surface, while the other half was observed under ultra-violet light to determine the depth of fluorescent pigment penetration. Shortly after spray-inoculation of a fresh pruning wound, Trichoderma was isolated only from the wound surface and shallow depths into the wound (2 to 5 mm). One week after inoculation, Trichoderma was isolated at 10 mm depths, and after 2 weeks, at 15 mm depths. Fluorescent pigment particles were observed to a mean depth of 6 mm, which suggests that initial isolation of Trichoderma at these depths was resultant of the physical deposition of conidia deeper into the pruning wound tissue, whereas the isolation of Trichoderma from deeper depths might be attributed to colonisation of grapevine tissue. In a vineyard trial, fluorescent pigment was spray-applied to pruning wounds of Shiraz and Chenin blanc grapevines during July and September at intervals 0, 1, 3, 7 and 14 days after pruning. One week after treatment, the distal nodes were removed and dissected longitudinally. Each half was observed under UV light and the pigment penetration measured. For Chenin blanc and Shiraz, July pruning wounds showed significant deeper penetration of the pigment than pruning wounds treated in September. Moreover, pruning wounds made in September showed pigment particles in longitudinal sections up to 1 day after pruning, whereas wounds made in July showed pigment particles up to 3 days in the xylem vessels. These findings suggest that the best time for application of a biological control agent should be within the first 24 hours after pruning.

Biological control of plant pathogens

Grapevine trunk diseases

Protection of pruning wounds

Botryosphaeriaceae

Dissertations -- Plant pathology

Theses -- Plant pathology

Pome fruit trees as alternative hosts of grapevine trunk disease pathogens

Cloete, Mia

03 1900

Thesis (MScAgric (Plant Pathology))--University of Stellenbosch, 2010. / ENGLISH ABSTRACT: A survey was undertaken on apple and pear trees in the Western Cape Province to determine the aetiology of trunk diseases with reference to trunk diseases occurring on grapevine. Grapevine trunk diseases cause the gradual decline and dieback of vines resulting in a decrease in the vine’s capability to carry and ripen fruit. In recent years, viticulture has been expanding into several of the well established pome fruit growing areas. The presence of trunk pathogens in pome fruit orchards may affect the health of the pome fruit trees as well as cause a threat to young vineyards planted in close proximity to these potential sources of viable inoculum. Several genera containing species known to be involved in trunk disease on pome fruit and grapevine were found, including Diplodia, Neofusicoccum, Eutypa, Phaeoacremonium and Phomopsis. Diplodia seriata and D. pyricolum, were isolated along with N. australe and N. vitifusiforme. Four Phaeoacremonium species, P. aleophilum, P. iranianum, P. mortoniae and P. viticola, two Phomopsis species linked to clades identified in former studies as Phomopsis sp. 1 and Phomopsis sp. 7, and Eutypa lata were found. In addition, Paraconiothyrium brasiliense and Pa. variabile, and an unidentified Pyrenochaetalike species were found. Of these the Phaeoacremonium species have not been found on pear wood and it is a first report of P. aleophilum occurring on apple. This is also a first report of the Phomopsis species and Eutypa lata found occurring on pome trees in South Africa Two new coelomycetous fungi were also found including a Diplodia species, Diplodia pyricolum sp. nov., and a new genus, Pyrenochaetoides gen. nov. with the type species, Pyrenochaetoides mali sp. nov., were described from necrotic pear and apple wood. The combined ITS and EF1-α phylogeny supported the new Diplodia species, which is closely related to D. mutila and D. africana. The new species is characterised by conidia that become pigmented and 1-septate within the pycnidium, and that are intermediate in size between the latter two Diplodia species. Phylogenetic inference of the SSU of the unknown coelomycete provided bootstrap support (100%) for a monophyletic clade unrelated to known genera, and basal to Phoma and its relatives. Morphologically the new genus is characterised by pycnidial with elongated necks that lack setae, cylindrical conidiophores that are seldomly branched at the base, and Phoma-like conidia. The phylogenetic results combined with its dissimilarity from genera allied to Phoma, lead to the conclusion that this species represents a new genus. A pathogenicity trial was undertaken to examine the role of these species on apple, pear and grapevine shoots. N. australe caused the longest lesions on grapevine shoots, while Pyrenochaetoides mali, Pa. variabile, D. seriata and P. mortoniae caused lesions that were significantly longer than the control inoculations. On pears, D. pyricolum and N. australe caused the longest lesions, followed by D. seriata and E. lata. On apples, the longest lesions were caused by N. australe and P. iranianum. D. seriata, D. pyricolum, E. lata, N. vitifusiforme, Pa. brasiliense, P. aleophilum and P. mortoniae also caused lesions on apple that were significantly longer than the control. The study demonstrated that close cultivation of grapevine to apple and pear orchards may have inherent risks in terms of the free availability of viable inoculum of trunk disease pathogens. / No Afrikaans abstract available.

Grapevine trunk disease

Dissertations -- Plant pathology

Theses -- Plant pathology

Grapes -- Diseases and pests

Fruit trees

Plant-pathogen relationships

Phytopathogenic microorganisms

The role of sucker wounds as portals for grapevine trunk pathogen infections

Makatini, Gugulethu Joy

04 1900

Thesis (MScAgric)--Stellenbosch University, 2014. / ENGLISH ABSTRACT: Grapevine trunk diseases are responsible for reduced wine and table grape production world-wide. Trunk disease infections are caused by xylem-inhabiting pathogens which include species of Botryosphaeriaceae, Diatrypaceae, Hymenochaetales and Diaporthales, as well as Phaeomoniella chlamydospora and Phaeoacremonium spp. Winter pruning wounds are regarded as the main infection-sites for trunk disease pathogens. However, the role of sucker wounds as portals of trunk disease infections has been minimally investigated. Knowledge of the potential role of grapevine trunk pathogen infections that occur through sucker wounds is important for better wound protection strategies. The aim of this study was to determine the role of grapevine sucker wounds as portals of entry for trunk disease pathogens and to assess the use of Trichoderma spp. for sucker wound protection. The susceptibility of sucker wounds to different trunk disease pathogens was assessed from natural as well as artificial infections. In addition the duration of sucker wound susceptibility in the field was also ascertained. Sucker wounds were sampled from three wine and two table grape vineyards during 2011 and 2012 in the Western Cape province of South Africa. Thereafter, fungal isolations were made from 161 sucker wounds and the cultures were identified based on cultural and morphological characteristics as well as the internal transcribed spacer regions and 5.8S ribosomal RNA gene. Sixty-two percent of the wounds were naturally infected by at least one of the trunk pathogens. Phomopsis (Po.) viticola (46%; 18%), Diplodia (D.) seriata (30%; 9%) and Phaeomoniella (Ph.) chlamydospora (27%; 5%) were the most predominant trunk disease pathogens isolated from sucker wounds of field wine and table grape cultivars, respectively. Lower incidences of Phaeoacremonium aleophilum (18%), Eutypella sp. (3%), Cryptovalsa ampelina (2%), Diplodia sp. (1%) and Neofusicoccum australe (1%) were obtained, however, only from wine grapes. Sucker wounds on 1-year-old potted grapevine plants of Chardonnay cultivar were inoculated with spore suspensions of Eutypa lata, N. parvum, Pa. aleophilum, Ph. chlamydospora and Po. viticola in the glasshouse. After 4 months all the inoculated pathogens could be re-isolated at the following incidences: N. parvum (85%), Ph. chlamydospora (75%), Po. viticola (65%), Pa. aleophilum (55%) and E. lata (45%). Sucker wound susceptibility was further ascertained under field conditions on 12-year-old Cabernet Sauvignon vines by artificial inoculation of the same pathogen species. After 5 months three pathogens could be re-isolated at the following incidences: Po. viticola (65%), N. parvum (32.5%) and Ph. chlamydospora (7.5%). The duration of susceptibility of field sucker wounds to Ph. chlamydospora was assessed for a period of 4 weeks. The wounds remained susceptible for 4 weeks with a decline in susceptibility after one week. This study showed that sucker wounds are susceptible to the major trunk disease pathogens and thus could play an important role in grapevine trunk disease epidemiology. In the second part of this thesis a possible management strategy to prevent infections of sucker wounds was investigated. The use of Trichoderma (T.) harzianum against two trunk pathogens on sucker wounds was tested in the field. Additionally the sensitivity of T. harzianum and T. atroviride was tested in vitro against 16 fungicides that are used to control powdery mildew, downy mildew, Botrytis rot and Phomopsis cane and leaf spot. In October 2012, sucker wounds were made on 1-year-old wood of Cabernet Sauvignon and spray-treated with Eco-77® immediately after desuckering, and then inoculated with spore suspensions of either Ph. chlamydospora or Po. viticola after 24 hours. After 5 months, isolations were made from the sucker wounds to evaluate the efficacy of the Trichoderma treatment. Trichoderma harzianum reduced the incidence of Ph. chlamydospora by 66.65%. Although the incidence of Po. viticola was reduced by 15.37%, it was not significantly different from the control treatment. The inhibition of mycelial growth and conidial germination of T. harzianum and T. atroviride were screened against 16 fungicides. The fungicides were applied at 0, 0.25, 0.5, 1 and 2 times the recommended dosages. Systemic fungicides boscalid, metrafenone and trifloxystrobin, as well as contact fungicides quinoxyfen and meptyldinocap were least toxic to Trichoderma spp. isolates. For the conidial germination assay, boscalid, trifloxystrobin, penconazole and metrafenone (systemic) plus quinoxyfen and folpet (contact) were compatible with Trichoderma spp. These fungicides were regarded as being compatible with Trichoderma spp. isolates because they gave mean percentage inhibitions of less than 50% at all the tested dosages. Spiroxamine and pyrimethanil gave the highest mean percentage inhibitions for both mycelial inhibition and conidial germination. The findings of this study showed that T. harzianum can protect sucker wounds against Ph. chlamydospora in the field. Furthermore, some fungicides applied for the control of powdery mildew and Phomopsis cane and leaf spot can be alternatively or simultaneously applied with T. harzianum and T. atroviride, however, this will have to be verified with field trials. / AFRIKAANSE OPSOMMING: Wingerd stamsiektes is wêreldwyd verantwoordelik vir verminderde wyn- en tafeldruif produksie. Stamsiektes word veroorsaak deur patogene wat in die xileem voorkom, insluitend verskeie spesies in die Botryosphaeriaceae, Diatrypaceae, Hymenochaetales en Diaporthales, asook Phaeomoniella chlamydospora en Phaeoacremonium spp. Winter snoeiwonde word beskou as die hoof bron van infeksies vir stamsiekte patogene. Die rol van suierwonde as poorte van infeksie vir stamsiektes is nog nie goed bestudeer nie. Kennis van die potensiële rol van wingerd stamsiekte patogeen infeksies wat deur suierwonde plaasvind is belangrik vir die formulasie van beter wondbeskerming strategieë. Die mikpunt van hierdie studie was om die rol van suierwonde as ingangsportale vir wingerd stamsiekte patogene te bepaal en om die gebruik van Trichoderma spp. vir suierwond beskerming te evalueer. Die vatbaarheid van suierwonde vir verskillende stamsiekte patogene is geëvalueer vanuit natuurlike, sowel as kunsmatige infeksies. Die duur van suierwond vatbaarheid in die veld is ook bepaal. Suierwonde is versamel vanuit drie wyn- en twee tafeldruif wingerde gedurende 2011 en 2012 in die Wes Kaap provinsie van Suid Afrika. Hierna is swam isolasies gemaak vanuit 161 suierwonde en die kulture is geïdentifiseer volgens kultuur en morfologiese kenmerke, sowel as die interne transkribeerde spasieerders en 5.8S ribosomale RNA geen. Twee-en-sestig persent van die wonde was geïnfekteer deur ten minste een van die stamsiekte patogene. Phomopsis (Po.) viticola (46%; 18%), Diplodia (D.) seriata (30%; 9%) en Phaeomoniella (Ph.) chlamydospora (27%; 5%) was die mees algemene stamsiekte patogene wat, respektiewelik, vanuit die wyn- en tafeldruif kultivars verky is. Laer hoeveelhede Phaeoacremonium aleophilum (18%), Eutypella sp. (3%), Cryptovalsa ampelina (2%), Diplodia sp. (1%) en Neofusicoccum australe (1%) is verkry, en slegs vanaf wyndruiwe. Suierwonde op 1-jaar oue Chardonnay wingerdplante in potte is in die glashuis geïnokuleer met spoorsuspensies van Eutypa lata, N. parvum, Pa. aleophilum, Ph. chlamydospora en Po. viticola. Na 4 maande kon al die geïnokuleerde patogene her-isoleer word teen die volgende hoeveelhede: N. parvum (85%), Ph. chlamydospora (75%), Po. viticola (65%), Pa. aleophilum (55%) en E. lata (45%). Suierwond vatbaarheid is verder geëvalueer onder veld kondisies op 12-jaar oue Cabernet Sauvignon plante deur kunsmatige inokulasie van die selfde patogeen spesies. Na 5 maande kon drie patogene her-isoleer word teen die volgende hoeveelhede: Po. viticola (65%), N. parvum (32.5%) en Ph. chlamydospora (7.5%). Die duur van vatbaarheid van suierwonde teen Ph. chlamydospora in die veld is geevalueer oor ‘n periode van 4 weke. Die wonde het vatbaar gebly vir 4 weke met ‘n afname in vatbaarheid na ‘n week. Hierdie studie demonstreer dat suierwonde vatbaar is vir die hoof wingerd stamsiektes en dus ‘n belangrike rol in die epidemiologie van wingerd stamsiektes kan speel. In die tweede deel van hierdie tesis is ‘n moontlike bestuurs-strategie ondersoek om infeksie van suierwonde te verhoed. Die gebruik van Trichoderma (T.) harzianum teen twee stampatogene op suierwonde is getoets in die veld. Verder is die in vitro sensitiwiteit van T. harzianum en T. atroviride getoets teen 16 fungisiedes wat gebruik word in die beheer van poeieragtige meeldou, donsskimmel, Botrytis vrot en Phomopsis streepvlek. Gedurende Oktober 2012 is suierwonde gemaak op 1-jaar oue hout van Cabernet Sauvignon en onmiddelik behandel met Eco-77® na suiering. Wonde is dan geïnokuleer met spoorsuspensies van óf Ph. chlamydospora óf Po. viticola na 24 uur. Na 5 maande is isolasies gemaak vanaf suierwonde om die doeltreffendheid van van die Trichoderma behandeling te evalueer. Trichoderma harzianum het die voorkoms van Ph. chlamydospora met 66.65% verminder. Alhoewel die voorkoms van Po. viticola verminder is met 15.37%, was dit nie ‘n beduidende verskil in vergelyking met die kontrole behandeling nie. Die inhibisie van miselium groei en konidia ontkieming van T. harzianum en T. atroviride is getoets teen 16 fungisiedes. Die fungisiedes is aangewend teen 0, 0.25, 0.5, 1 en 2 keer die aanbevole dosisse. Sistemiese fungisiedes boscalid, metrafenone en trifloxystrobin, sowel as kontak fungisiedes quinoxyfen en meptyldinocap was die minste toksies teen Trichoderma spp. Gedurende die konidia ontkiemingstoets was boscalid, trifloxystrobin, penconazole en metrafenone (sistemies) en quinoxyfen en folpet (kontak) versoenbaar met Trichoderma spp. Die fungisiedes is beskou as bruikbaar met Trichoderma spp. isolate omdat hulle gemiddelde persentasie inhibisies van minder as 50% teen al die getoetste dosisse gelewer het. Spiroxamine en pyrimethanil het die hoogste gemiddelde persentasie inhibisie gelewer vir beide die miselium inhibisie en konidia ontkieming. Die bevindings van hierdie studie het gewys dat T. harzianum suierwonde kan beskerm teen Ph. chlamydospora in die veld. Verder sou sommige fungisiedes wat aangewend word vir die bestuur van poeieragtige meeldou en streepvlek moontlik alternatiewelik of gelyktydig met T. harzianum en T. atroviride aangewend word, alhowel dit met veldproewe bevestig moet word.

Grapevine trunk diseases

Pruning wounds

UCTD

Theses -- Plant pathology

Dissertations -- Plant pathology

Identification and molecular characterization of three genetic variants of Grapevine leafroll-associated virus 3 (GLRaV-3) from South African vineyards and their spread in local vineyards

Jooste, Anna Elizabeth Catharina

03 1900

Thesis (PhD (Genetics))--University of Stellenbosch, 2011. / Includes bibliography / ENGLISH ABSTRACT: Grapevine diseases, in particular virus and virus-like diseases, are threatening grapevine industries worldwide; also in South Africa. Grapevine leafroll (GLR) is one of the most important diseases of grapevines, occurring in all grape-producing countries worldwide. Grapevine leafroll-associated virus 3 (GLRaV-3) is known to be closely associated with GLR disease and occurs commonly in South African vineyards. In this study three genetic variants of GLRaV-3 were identified in vineyards of the Western Cape, South Africaby single strand conformation polymorphism (SSCP) profiles generated from a region amplified in ORF5. A specific SSCP profile could be assigned to each variant group and these wereconfirmed by sequencing of the ORF5 regions.These results demonstrated that SSCP analysis on this region in ORF5 provides a fast and reliable indication of the GLRaV-3 variant status of a plant, which in many instances showed mixed infections. The full genome sequence of one representative of each variant group i.e. isolates 621 (group I), 623 (group II) and PL-20 (group III), was determined by sequencing overlapping cloned fragments of these isolates. The sequences of genomic 5’ ends of these isolates were determined by RLM-RACE. Sequence alignment of the 5’UTRs indicated significant sequence and length variation in this region, between the three South African variant groups. Nucleotide sequence alignment of the Hsp70h and CP gene regions of these isolates with those of isolates from elsewhere in the world, followed by phylogenetic analysis, further supported the presence of three GLRaV-3 variants in South Africa, and that two or three additional variant groups occurs elsewhere in the world. We further investigated the prevalence of these three GLRaV-3 variants in mother blocksof different cultivars and from different vine growing regions, using SSCP analysis. The majority of the plants studied, were infected with the group II variant, similar to isolates 623 and GP18. The distribution of the three GLRaV-3 variants within a spatio-temporally recorded cluster of diseased plants was studied by means of SSCP profile analysis. We showed that different GLRaV-3 variants are transmitted to adjacent plants in an infection cluster. Results showed that, in some leafroll disease clusters, the variant that was present in the original GLRaV-3 infected plant of a cluster was transmitted to adjacent plants in a row and across rows. Some plants in the cluster were also infected with variants not present in the original plant. These infections could have been caused by mealybug vectors feeding on plants from surrounding areas and then infecting these plants. The scientific information generated on GLRaV-3 variants in this project contributed to the advancement of our knowledge of genetic variability and provides a basis of further epidemiology and vector-virus studies. The study showed for the first time that different GLRaV-3 variants were transmitted to adjacent plants in a row and across rows in a GLR disease cluster. The diversity detected in the 5’UTR between variants from the three genetic groups provides a platform for the further study of the biological characteristics of GLRaV-3 variants. / AFRIKAANSE OPSOMMING: Wingerdsiektes, veral virus siektes, bedreig wingerd industrieë wêreldwyd, asook die Suid Afrikaanse wingerdbedryf. Rolbladsiekte is een van die belangrikste siektes op wingerd en kom wêreldwyd voor. Die virus, grapevine leafroll-associated virus 3 (GLRaV-3), word sterk geassosieer met Rolbladsiekte en kom wydverspreid voor in Suid Afrikaanse wingerde. Tydens hierdie studie is drie genetiese variante van GLRaV-3 geïdentifiseer in wingerd moederblokke in die Wes-Kaap. Die GLRaV-3 variante is geïdentifiseer met ‘n tegniek wat ‘single-strand conformation polymorphism (SSCP)’ genoem word. Die SSCP profiele was gegenereer vanaf PKR produkte van die ORF5 area op die genoom van GLRaV-3. Die geamplifiseerde produk van die ORF5 gebied is gebruik om die SSCP profiele te verkry en DNA-volgorde data in die gebied het die drie SSCP profiele gestaaf. Hierdie metode om virus variasie te bestudeer in plante is vinnig en betroubare resultate is verkry. Gemengde infeksies, wat gereeld in wingerd voorkom, kon ook met die tegniek opgespoor word. Die volledige nukleotied-volgorde van elkeen van die drie GLRaV-3 genome is volledig bepaal. Die isolate wat die drie variant groepe verteenwoordig is isolaat 621 (groep I), 623 (groep II) en PL-20 (groep III). Die nukleotiedvolgorde in die 5’UTR is bepaal met die RLM-RACE tegniek. Wanneer die 5’UTRs van die drie variante vergelyk is, het dit getoon dat daar verskille is in die volgordes en lengtes voorgekom het. Ander dele van die genoom, o.a. die dopproteïen (CP) en Hsp70 areas, is filogeneties vergelyk met isolate van regoor die wêreld. In die filogenetiese analise is bevind dat die drie GLRaV-3 variante saamgegroepeer het met ander isolate in die wêreld en dat daar elders ook twee to drie addisionele variant groepe van GLRaV-3 voorkom. Die verspreiding van die drie GLRaV-3 variante in wingerde is bestudeer in verskillende kultivars en in verskillende verbouingsgebiede. Die meerderheid van die plante in die studie was geïnfekteer met die groep II variant wat dieselfde is as isolate 623 en GP18. Die voorkoms van die drie variante in ‘n siekte cluster is bestudeer d.m.v SSCP. Die studie het gewys dat verskillende GLRaV-3 variante versprei word na aangrensende plante in ‘n ry en tussen rye. In sommige gevalle is die variant wat in die oorspronklik geïnfekteerde plant voorkom, oorgedra na naasliggende plante. Sommige van die plante in the infeksie area was ook met ander GLRaV-3 variante geïnfekteer wat moontlik deur wolluise oorgedra is vanaf naburige geïnfekteerde plante. Die wetenskaplike inligting wat tydens hierdie studie beskryf word aangaande die identifikasie van GLRaV-3 variante, dra by tot die molekulêre kennis van GLRaV-3 en verskaf ‘n basis vir verdure epidemiologiese -en insek oordragingstudies. Die studie het vir die eerste keer bewys dat verskillende GLRaV-3 variante na aanliggende plante in ‘n ry asook oor rye oorgedra word. Die diversiteit tussen die GLRaV-3 variant groepe in die 5’UTR moet verder ondersoek word en die deel van die genoom kan ‘n belangrike rol speel in die biologiese eienskappe van die variante.

Closterovirus genetic variability

Leafroll disease epidemiology

Virus field surveys

Dissertations -- Genetics

Theses -- Genetics

Les facteurs de transcription MYB et la régulation de la biosynthèse des flavonoïdes dans la baie de raisin : analyse fonctionnelle et identification de nouveaux candidats

Ferrier, Thilia

14 November 2008

Les flavonoïdes (anthocyanes, flavonols et proanthocyanidines) sont des éléments clés de la qualité organoleptique des baies de raisin. Chez les végétaux, l’expression des gènes de la voie de biosynthèse de ces composés est contrôlée par des complexes protéiques organisés autour des facteurs de transcription de type MYB. Dans le cadre de cette thèse, une première approche s’est intéressée aux mécanismes de régulation de l’expression du gène VvMyb5a et de l’activité biologique de la protéine codée par ce gène. L’analyse du promoteur VvMyb5a a montré que son activité au cours du développement de la baie serait plutôt placée sous contrôle hormonal. Des expériences de double hybride ont révélé que la protéine VvMyb5a pouvait interagir avec une protéine kinase de type GAMYB et une protéine WD40. Une deuxième approche, basée sur l’analyse globale du transcriptome de mutants naturels de vigne affectés dans la biosynthèse des anthocyanes, a permis d’identifier deux nouveaux gènes MYB nommés VvMybPA1 et VvMyb24. L’expression différentielle de ces gènes dans des baies de cépages rouges et blancs a été confirmée et leurs caractérisations fonctionnelles ont été engagées chez Arabidopsis thaliana. / Flavonoids, like anthocyanins, flavonols and condensed tannins, are key elements of he organoleptic quality of grape berries. In plants, expression of genes encoding enzymes of he flavonoid biosynthetic pathway is controlled by small protein complexes organised around MYB transcription factors. In the present work, we first focused on the regulatory mechanisms of VvMyb5a expression and on the biological activity of the corresponding protein. Promoter analysis indicated that VvMyb5a expression is probably mainly controlled by hormones. A yeast two-hybrid screen revealed that VvMyb5a can interact with a GAMYB ype protein kinase and a WD40 protein. In a second time, global transcriptome analysis of grapevine natural mutants deficient in anthocyanin biosynthesis led to the identification of wo new MYB genes, named VvMybPA1 and VvMyb24. Differential expression of these two genes in red and white berry skins was confirmed by RT-PCR and their functional characterizations have been initiated in Arabidopsis thaliana.

Baie de raisin

MYB

Facteur de transcription

Mutants naturels de vigne

Flavonoïdes

Qualité

Grape berry

Grapevine natural mutants

MYB

Transcription factor

Development

Flavonoids

Ecologie et évolution de l’interaction Plasmopara viticola / Vitis spp. et évaluation des risques de contournement de la résistance de la vigne au mildiou / Ecology and evolution of the Plasmopara viticola / Vitis spp. interaction and risk assessment for grapevine downy mildew resistance breakdown

Rouxel, Mélanie

14 December 2012

La compréhension du processus d’adaptation des populations de parasites à leur plante-hôte est une question fondamentale en écologie évolutive. C’est également un enjeu majeur de recherche finalisée qui a des retombées pour la protection des cultures. L’oomycète Plasmopara viticola, agent causal du mildiou de la vigne, attaque les espèces du genre Vitis. Dans un contexte où l’enjeu principal des programmes d’amélioration est la durabilité des résistances, des connaissances nouvelles sur l’écologie et l’évolution de l'interaction entre le parasite et son hôte sont nécessaires afin d’évaluer le potentiel du mildiou à surmonter ces résistances. Dans ma thèse, je me suis intéressée au rôle de la plante-hôte comme facteur d’évolution des populations de mildiou, en posant cette question à différentes échelles évolutives : (i) dans le bassin d’origine du pathogène (Amérique du Nord), j’ai cherché à évaluer le degré de spécialisation du parasite sur sa gamme d’hôtes sauvages et cultivés; (ii) en Europe, où le mildiou de la vigne a été introduit récemment, j’ai étudié l’évolution des populations de mildiou soumis à la pression de sélection des résistances des nouvelles variétés de vigne. Pour comprendre la spécialisation plante-hôte dans ce pathosystème où plusieurs espèces cryptiques ont été identifiées, nous avons réalisé des tests d’inoculations croisées entre espèces hôtes (Vitis spp.) et agent pathogène (P. viticola). Les données phénotypiques et morphologiques apportent les preuves d’une spécialisation plante-hôte au sein des populations de P. viticola : les espèces A et D de mildiou sont spécialisées sur leur plante-hôte, tandis que le processus de spécialisation est en cours pour les espèces B et C. Même si aucune différenciation génétique n’a été montrée au sein de l’espèce C, il existe deux groupes distincts au sein de l’espèce B. Les isolats du compartiment cultivé sont en moyenne plus agressifs que les isolats issus des vignes sauvages, indiquant une adaptation des isolats cultivés sur leur plante hôte. A partir d’un large échantillonnage, nous avons étudié la distribution des espèces de mildiou sur leurs plantes-hôtes sauvages et cultivées. Ce travail a permis d’identifier une nouvelle espèce cryptique et a confirmé la spécialisation plante-hôte. En Europe, nos résultats montrent que le déploiement limité de variétés à résistantes partielles a conduit à des modifications des populations de mildiou: apparition d’isolats virulents (i.e. contournant un QTL majeur de résistance), et augmentation de l’agressivité sur Vitis vinifera. Dans le but de comprendre les mécanismes à l’origine de la spécialisation et du contournement des résistances, nous nous sommes intéressés au répertoire d’effecteurs du parasite. Une centaine d’effecteurs candidats ont été identifiés en utilisant les données disponibles sur le génome de P. viticola. L’analyse du polymorphisme de 32 candidats sur une sélection d’isolats montre que trois d’entre eux évoluent sous sélection positive. Ces résultats soulignent l’importance de la plante-hôte comme facteur de diversification des populations de l’agent pathogène et révèlent que le mildiou s’adapte rapidement aux résistances de la vigne. Il est désormais nécessaire de mieux appréhender le déploiement des résistances de la vigne afin qu’elles puissent être durables. / Understanding the process of adaptation of parasite populations to their host-plant is a key issue in evolutionary ecology. It is also a major subject in applied research that has implications for crop protection. The oomycete Plasmopara viticola, the causal agent of downy mildew, attacks the species of the Vitis genus. In a context where the main concern of the breeding programs is the durability of resistance, new knowledge about the ecology and evolution of the interaction between parasite and host is needed in order to evaluate the potential of downy mildew to overcome the resistance. In my thesis, I addressed the role of the host-plant as an evolutionary factor for downy mildew populations, by asking this question at two different evolutionary scales: (i) in the pathogen region of origin (North America) I assessed the degree of specialization of the parasite on its wild and cultivated host range (ii) in Europe, where downy mildew has been introduced recently, I studied the evolution of downy mildew populations subject to the selection pressure imposed by resistant grapevine varieties. To understand the host-plant specialization in this pathosystem, where several cryptic species have been identified, we performed cross inoculations between different host (Vitis spp.) and pathogen (P. viticola) species. Morphological and phenotypic data provide evidence of host-plant specialization in P. viticola populations: downy mildew species A and D are specialized on their host-plant, while the specialization process is ongoing for species B and C. Although no genetic differentiation has been shown inside species C, there are two distinct groups within species B. Isolates from the cultivated compartment are on average more aggressive than isolates from wild vines, indicating an adaptation of isolates growing on cultivated host-plants. Finally, a large-scale study of the distribution of downy mildew species on both their wild and cultivated host-plants resulted in the identification of a new cryptic species and confirmed the host-plant specialization. In Europe, our results show that the limited deployment of resistant varieties has led to changes in downy mildew populations: emergence of virulent isolates (i.e. breakdown of a major QTL for resistance), and increased aggressiveness on Vitis vinifera. In order to understand the mechanisms at the origin of specialization and resistance breakdown, we examined the parasite’s effector repertoire. Over one hundred effector candidates were identified using available data on the P. viticola genome. The polymorphism of 32 candidate genes revealed that three of them evolve under positive selection. Our results reveal the strong ability of downy mildew to adapt to its host plant and to plant resistance. They should be taken into account when devising strategies for the deployment of grapevine resistances in order to guarantee their durability.

Interaction hôte-parasite

Maladie émergente

Spécialisation plante-hôte

Vigne

Mildiou

Host parasite interaction, , ,

Disease emergence

Host-plant specialization

Grapevine

Mildew

Etude comparative des communautés fongiques et bactériennes colonisant le bois de ceps de vigne ayant exprimé ou non des symptômes d’esca / Comparative study of fungal and bacterial communities colonizing the woody tissues of grapevines which had expressed or not the esca symptoms

Bruez, Emilie

25 January 2013

L’esca est une maladie de dépérissement du bois de la vigne conduisant à la mort des ceps. Actuellement le vignoble mondial est atteint, et au niveau français, cette maladie ne cesse de progresser. Ainsi, 8% des ceps dans le Jura et 4,5% dans la région de Bordeaux manifestent des symptômes d’esca, selon les parcelles des chiffres beaucoup plus élevés sont obtenus, certains cépages sont aussi beaucoup plus sensibles que d’autres. Plusieurs champignons seraient impliqués dans l’esca mais leur rôle ainsi que la détermination de la microflore responsable de cette maladie est encore sujette à interrogation. Dans ce contexte, l’objectif de cette thèse a été de caractériser et de comparer les microflores fongiques et bactériennes colonisant le bois de ceps de vigne ayant exprimé ou non des symptômes foliaires d’esca. Dans un premier temps, nous avons prélevé des ceps (cultivar Cabernet Sauvignon) relativement jeunes (10 ans d’âge) car ils présentaient l’intérêt d’être peu dégradés au niveau du bois du tronc, les symptômes foliaires étant associés à la présence d’amadou (une nécrose typique de l’esca) uniquement dans les bras. Une grande diversité dans les communautés fongiques (674 OTUs) et bactériennes (222 OTUs) colonisant le bois a été observée. Cette diversité est plus importante dans le bois sain de la vigne que dans celui partiellement ou totalement nécrosé. Les techniques utilisées, i.e. isolement/séquençage de souches, empreinte moléculaire (Single Strand Conformation Polymorphism, SSCP) et pyroséquençage 454, ont montré que les communautés bactériennes ou fongiques étaient différentes dans les tissus dégradés comparés à ceux qui ne l’étaient pas. Des changements de microflores en fonction du temps (expérimentation durant 1 année) ont aussi été observés. D’une façon générale, les espèces de champignons impliquées dans l’esca sont déjà présentes dans le bois apparemment sain de ceps esca-foliaires symptomatiques mais aussi des asymptomatiques. Il n’a pas été possible de différencier ces 2 types de microflores au niveau du bois sain des plants, cette différentiation se faisant au niveau des nécroses, qui sont plus abondantes dans les ceps esca-symptomatiques. Pour la première fois nous avons montré que des communautés bactériennes spécifiques étaient associées à l’esca, leurs aptitudes trophiques étant différentes selon les tissus où elles étaient prélevées. Les espèces isolées suggèrent que certaines pourraient avoir un rôle dans la protection du végétal, d’autres dans la dégradation des structures du bois, e.g. de la lignine, préparant ainsi le terrain aux champignons dégradateurs des tissus ligneux, déjà présents à l’intérieur des ceps. Nous avons aussi étudiés des ceps plus âgés (cultivar Baco blanc), de 42 et 58 ans, qui avaient un rendement acceptable et n’avaient pas manifesté de symptômes d’esca ou eutypiose (une autre maladie du bois) l’année du prélèvement. Au niveau des tissus fonctionnels du bois, les communautés fongiques étaient caractéristiques de plants atteints par l’eutypiose (ceps de 42 ans) ou de l’esca (ceux de 58 ans). La non expression par les ceps de ces 2 maladies pourrait cependant être associée à la forte présence de champignons mycoparasites et protecteur du végétal, comme Trichoderma spp., dans ces tissus fonctionnels. Les interactions au sein des communautés fongiques créant un équilibre où le pathogène ne se développerait pas de façon extensive. Les caractéristiques du Baco blanc, un hybride, moins sensible à certaines maladies de la vigne, pourrait aussi expliquer ce résultat. Ainsi la présence d’une microflore bénéfique naturellement présente dans le bois des ceps associée à des plants ayant une tolérance à ces maladies pourrait ouvrir de nouvelles perspectives pour lutter l’esca, voire l’eutypiose, pour lesquelles aucun moyen de protection n’existe aujourd’hui. / Esca is a Grapevine Trunk Disease (GTD) that induces a decline in grapevine vigour that generally leads up with the death of the plants. Nowadays, vineyards worldwide are attacked by esca and, in France this disease increases steadily. In the Jura, 8% of the grapevines are esca-foliar symptomatic and approximately 4.5% in the Bordeaux region. However, some vineyards are more severely attacked by esca, and certain cultivars are more susceptible than others. Although several pathogenic fungi are associated with esca, their individual roles and their interaction with other microorganisms for the esca have still to be determined. In this context, the objective of the present PhD study is to characterize and compare the bacterial and fungal microflora that colonize the wood tissues of esca-foliar symptomatic and asymptomatic grapevines. First, we sampled young (10 year-old) grapevines (Cabernet Sauvignon cultivar) because they had only few necroses in the trunk and white-rot (also called amadou) was only present in the cordons of symptomatic plants. Great diversity in the fungal (674 OTUs) and bacterial (222 OTUs) communities was observed. This diversity was higher in the apparently healthy wood than in the partially or totally necrotic wood tissues. The methods used isolation/sequencing of microbial strains, a molecular fingerprinting method (Single Strand Conformation Polymorphism, SSCP) and 454 pyrosequencing showed that the fungal and bacterial communities of the necrotic and healthy wood tissues were different. Changes in the microflora over time (over a one-year period) have been observed. Fungal species involved in esca are already present in the apparently healthy wood of esca-foliar symptomatic plants but also in the asymptomatic ones. It was not possible to differentiate these 2 microflora. Only microflora from the necroses differed from those of the healthy wood with these necroses being more developed in the esca-foliar symptomatic grapevines. For the first time, we were able to determine that specific bacterial communities are associated with esca. Depending on the wood tissues, different types of bacteria were isolated, with different trophic behaviour. Two roles could be assigned to the species isolated from the various wood tissues: (i) a positive role, due to the biocontrol potential that many species have; (ii) a negative one, by predisposing the wood of grapevines to fungal attacks. We also studied, old (42 and 58 year-old) grapevines of the cultivar, Baco blanc, that produced regular harvests. The plants had no expressed foliar symptoms of esca or eutypa dieback during the sampling year. Many plant pathogens colonized the functional wood tissues, but in 58 year-old plants they were associated with esca, and in 42 year-old plants, with eutypa dieback. The absence of GTDs expression could be linked to the numerous plant protectant mycoparasites, such as Trichoderma spp., that colonized the functional wood tissues. Interactions between species within the fungal communities may create a balance that is unfavourable to the development of the pathogens. The use of Baco blanc, a hybrid less susceptible to certain grapevine diseases could also explain this result. So, because no means of protection are currently available, the combination of beneficial microflora within the garpevine wood tissues with plants that are tolerant to esca, or even eutypa dieback, could be helpful to control those diseases.

Vigne

Esca

Microflore fongique

Microflore bactérienne

Empreinte moléculaire

Pyroséquençage

Grapevine

Esca

Fungal microflora

Bacterial microflora

Molecular fingerprinting method

Pyrosequencing